Lightweight fire hose coupling with protective shoulder and method of manufacturing the coupling

ABSTRACT

A fire hose coupling includes a substantially annular body having a first end adapted to connect to a fire hose and a second end having male threads. The annular body has a central bore. The coupling includes circumferentially spaced-apart lugs extending radially outwardly from an outer surface of the first end of the body. The coupling further includes a protective shoulder extending radially outwardly from the body between the male threads and the lugs. The protective shoulder has an outer diameter greater than an outer diameter of the male threads to thereby protect the male threads.

CROSS-REFERENCE TO RELATED APPLICATIONS

This is the first application filed for the present technology.

TECHNICAL FIELD

The present technology relates generally to couplings and, inparticular, to fire hose couplings.

BACKGROUND

Fire hoses are coupled together with fire hose couplings. Various typesof these couplings are known in the art. Typically, one side of acoupling has an expansion ring to attach the coupling to its respectivehose. On the other side of the coupling are usually a set of internal orexternal threads for fastening the coupling to complementary (externalor internal) threads of another coupling. When the threads are external(male threads), the threads are prone to being damaged when the couplingis dropped or when it collides with hard surfaces in use. Damagesthreads may render the coupling inoperative or difficult to connect,which can mean that a firefighter may lose precious time at a fire scenetrying to connect a damaged coupling.

Another important factor in a fire hose coupling is its mass (weight).There is a need to provide lightweight couplings without undulysacrificing their robustness.

Accordingly, a need has existed for an improved fire hose coupling thatprotects the external (male) threads in a robust yet lightweight design.An improved coupling and method of manufacturing such a coupling that isrobust, lightweight and that protects the external threads is disclosedin the present specification.

SUMMARY

In general, the present invention provides a robust lightweight firehose coupling having a substantially annular body having a first endadapted to connect to a fire hose and a second end having male threads,the annular body having a central bore. The coupling includes aplurality of circumferentially spaced-apart lugs extending radiallyoutwardly from an outer surface of the first end of the body. Thecoupling further includes a protective shoulder extending radiallyoutwardly from the body between the male threads and the lugs, theprotective shoulder having an outer diameter greater than an outerdiameter of the male threads to thereby protect the male threads.

Thus, a main aspect of the present invention is a robust lightweightfire hose coupling comprising a substantially annular body having afirst end adapted to connect to a fire hose and a second end having malethreads, the annular body having a central bore. The coupling includes aplurality of circumferentially spaced-apart lugs extending radiallyoutwardly from an outer surface of the first end of the body. Thecoupling further includes a protective shoulder extending radiallyoutwardly from the body between the male threads and the lugs, theprotective shoulder having an outer diameter greater than an outerdiameter of the male threads to thereby protect the male threads.

Another aspect of the present invention is a method of manufacturing arobust lightweight fire hose. The method comprises providing metal barstock, boring a hole in the metal bar stock, cutting away an outerportion of the metal bar stock to define an annular body having aconstant outer diameter and to define a plurality of lugs extendingradially outwardly from the annular body and to further define ashoulder that extends radially outwardly from the annular body, andcutting male threads on a second end of the annular body such that theshoulder lies between the male threads and the lugs and such that anouter diameter of the male threads is less than an outer diameter of theshoulder so that the shoulder will protect the male threads.

The details and particulars of these aspects of the invention will nowbe described below, by way of example, with reference to the attacheddrawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Further features and advantages of the present technology will becomeapparent from the following detailed description, taken in combinationwith the appended drawings, in which:

FIG. 1 is an isometric view of a fire hose coupling in accordance withan embodiment of the present invention;

FIG. 2 is a side elevation view of the coupling of FIG. 1;

FIG. 3 is a front view of the coupling of FIG. 1; and

FIG. 4 is a top view of the coupling of FIG. 1.

It will be noted that throughout the appended drawings, like featuresare identified by like reference numerals.

DETAILED DESCRIPTION

In general, the present invention provides a novel fire hose couplingthat is robust and lightweight and that include a protective shoulderthat protects the male (external) threads of the coupling. The presentinvention also provides a method of manufacturing such a coupling.

One exemplary embodiment of the novel fire hose coupling is illustratedby way of example in FIGS. 1-4. As depicted in these figures, the novelfire housing coupling is generally designated by reference numeral 10.The coupling 10 has a substantially annular body 20 having a first endadapted to connect to a fire hose (not shown) and a second end havingmale (i.e. external) threads for connecting to a female-threaded (i.e.internally threaded) coupling (which is also not shown). The malethreads 30 may be right-hand or left-hand threaded.

The annular body 20 has a central bore 60. The central bore may have aconstant inside diameter, a varying diameter as a function of length, ortwo or more stepped internal diameters.

The coupling includes a plurality of circumferentially spaced-apartwrenching lugs 50 extending radially outwardly from an outer surface ofthe first end of the body. In the embodiment depicted in the figures,there are three lugs equally spaced-apart around the circumference ofthe first end of the body such that the angle between adjoining lugs isapproximately 120 degrees. In other embodiments, there may be adifferent number of lugs. Also, in other embodiments, thecircumferential spacing between adjacent lugs may not necessarily beequal. Moreover, although the lugs have the same general shape and sizein the illustrated embodiment, this is not necessarily so (i.e. the lugsmay have different shapes and/or sizes). Optionally, one of the lugs hasa groove to indicate the start of the male thread. This is to make iteasier for the firefighter to start the thread.

The coupling further includes a protective shoulder 40 extendingradially outwardly from the body between the male threads and the lugs.As shown in the figures, the protective shoulder 40 is a generallyannular extension that forms a disc-like collar or flange-like structurearound the annular body. The protective shoulder 40 has an outerdiameter greater than an outer diameter of the male threads to therebyprotect the male threads. The thickness (t) of the protective shoulderis, in the illustrated embodiment, thinner than the cross-width (w) ofeach lug. In one embodiment, the thickness of the protective shoulderfor a 2″-to-2½″ coupling would range from ⅛″ to ⅜″ inches, therebyrepresenting approximately 3-12% of the total length of the coupling,while the outer diameter of the shoulder and lugs would exceed the outerdiameter of the annular body by 25-35%. The lugs may be machined withfillets of radii ranging from ⅛″-⅜″ inches at the interfaces of theshoulder and each side surface of each lug.

In the particular embodiment illustrated in the figures, the coupling isan adaptor coupling that connects hose of a first diameter to a threadof a second (larger) diameter, for example a 2″ hose to a 2½″ thread. Itshould be appreciated that this inventive concept may be applied to anycoupling size and to couplings that connect a hose of a diameter equalto the thread. The couplings may be made of aluminum or any other knownmetal, alloy, composite, or any other suitable material. In thisparticular design, where the coupling connects a 2″ (5.1 cm) hose to a2½″ (6.4 cm) thread and is made of aluminum, it is estimated that thereis approximately a weight savings of 1 pound (0.45 kg).

In the illustrated embodiment depicted in FIGS. 1-4, each of the lugs 50has a substantially flat top surface 52 that extends into an inclinedramp 54 that ramps down to a lip of the first end of the body. Asdepicted by way of example in the figures, the inclined ramp (orinclined portion) may narrow in width as it ramps down toward the lip.The ramp 54 may be linear (a straight ramp) as shown in the figures orit may be nonlinear (a curved or parabolic ramp).

Another aspect of the present invention is a method of manufacturing afire hose coupling such as the one illustrated in FIGS. 1-4. The methodin general comprises providing metal bar stock, boring a hole in themetal bar stock, cutting away an outer portion of the metal bar stock todefine an annular body having a constant outer diameter and to define aplurality of lugs extending radially outwardly from the annular body andto further define a shoulder that extends radially outwardly from theannular body, and cutting male threads on a second end of the annularbody such that the shoulder lies between the male threads and the lugsand such that an outer diameter of the male threads is less than anouter diameter of the shoulder so that the shoulder will protect themale threads. In other words, in this method, the shoulder is machinedintegrally with the lugs when machining the bar stock to produce thefirst end of the annular body.

In one embodiment of the method, cutting away the outer portion of themetal bar stock may be accomplished using a milling machine (eithermanually operated by a machinist or CNC operated) to mill the bar stockto define the annular body and the lugs.

The male threads may be turned on a lathe or cut using other machiningtechniques.

In one embodiment of the method, the lugs are machined to have an outerdiameter substantially equal to the shoulder.

In one embodiment of the method, the lugs are machined to have a topflat surface and an inclined face that ramps down from the flat surfaceto a lip of a first end of the annular body as best shown in FIG. 2.

The fire hose coupling described above and illustrated in the figures isa lightweight and robust coupling that has a protective shoulder toprotect the male (external) threads from damage. The manufacturingprocess is an efficient and cost-effective method of machining thecoupling such that the protective shoulder may be easily formed toprotect the male threads.

Some of the advantages over the prior art will now be described. In thenovel coupling illustrated by way of example in FIGS. 1-4, there is alarger male thread than the hose diameter (e.g. male thread adapts a 2½″hose onto a 2″ hose). As noted above, the shoulder of this novelcoupling design protects the male threads.

Conventional prior-art fire hose couplings are normally made fromextruded aluminum to save cost over forged aluminum. The primarydrawback to extruding the coupling from a block of aluminum is that thefeatures are constrained to lie along the centerline axis. In otherwords, it is not possible to extrude the shoulder needed to protect themale threads by extruding a length of bar stock. As a consequence ofthis manufacturing constraint, conventional extruded couplings have abody with the same diameter as the shoulder. The wrenching lugs thusextend beyond this outer diameter in the conventional design which maybe problematic because this means the shoulder is undesirably thick andthat the lugs protrude much farther outward than on the novel coupling.

The pronounced protrusion of the lugs on the conventional couplingincreases the likelihood of the coupling getting hung up when pulled bya firefighter. In contrast, the novel coupling disclosed herein is muchless prone to hanging up when pulled because of the lugs do not protrudenearly as much.

In conclusion, the novel coupling has much less weight than a comparableconventional coupling while still providing the shoulder to protect theexternal threads.

This new technology has been described in terms of specific examples,embodiments, implementations and configurations which are intended to beexemplary only. Persons of ordinary skill in the art will appreciatethat obvious variations, modifications and refinements can be madewithout departing from the scope of the present invention. The scope ofthe exclusive right sought by the Applicant is therefore intended to belimited solely by the appended claims.

The invention claimed is:
 1. A fire hose coupling comprising: asubstantially annular body having a first end adapted to connect to afire hose and a second end having male threads, the annular body havinga central bore; a plurality of circumferentially spaced-apart lugsintegrally formed with the body and extending radially outwardly from anouter surface of the first end of the body; and a protective shoulderintegrally formed with the body and extending radially outwardly fromthe body between the male threads and the lugs, the protective shoulderhaving an outer diameter greater than an outer diameter of the malethreads to thereby protect the male threads and wherein the protectiveshoulder has a thickness (t) less than a circumferential width (W) ofeach lug wherein the circumferential width (W) is defined as a width ofeach lug in a circumferential direction at a maximum radial extension ofeach lug, wherein each of the lugs has a substantially flat top surfacehaving an outer diameter equal to the outer diameter of the shoulder andwherein each of the lugs extends into an inclined ramp that ramps downto a lip of the first end of the body, wherein the lip defines anextremity of the first end.
 2. The coupling as claimed in claim 1wherein an outer diameter of the male threads is greater than an outerdiameter of the first end of the body.
 3. The coupling as claimed inclaim 1 wherein the inclined ramp of each of the lugs narrows toward thelip.
 4. The coupling as claimed in claim 3 wherein the thickness (t) ofthe protective shoulder is 3-12% of a total length of the coupling. 5.The coupling as claimed in claim 4 wherein the outer diameter of theprotective shoulder exceeds an outer diameter of the annular body by25-35%.